Delivery of Content and Priority Messages

ABSTRACT

Herein described are at least a system, computer readable storage media, and method for resuming consumption of content which was interrupted by a high priority message. In one embodiment, the method includes receiving the message while tuned to a first communications channel for receiving content, and transmitting a first signal responsive to detecting the start of the message. The first signal may pause delivery of the content, and may determine a location in the content corresponding to the start of the message. The method may further transmit a second signal responsive to detecting an end of the message, and trigger a resumption of delivery of the content starting at the indexed location.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of and claims priority to U.S. patentapplication Ser. No. 13/803,348, filed Mar. 14, 2013, which isincorporated herein by reference in its entirety.

BACKGROUND

When an emergency alert system (EAS) message is transmitted to a viewerconsuming media content, such as a television program, the viewer mustwait until the EAS message is completely delivered before he cancontinue watching the television program. When the content is deliveredby a content provider, the program may automatically resume after theEAS message ends, enabling the viewer to continue watching the contentat the point where the interruption occurred.

When the content is a time-shifted content, such as a video on demand(VOD) program or other non-linear program, an interruption caused by anEAS message may require the viewer to reselect the previously watchedprogram. Furthermore, if the viewer had watched a substantial portion ofthe program, the viewer may need to manipulate the program to locate thepoint at which the interruption occurred.

In some systems, one or more request messages may be generated by theuser terminal to tune in to the previously viewed program aftercompletion of the EAS message, but such messages may result ininstability to the user terminal and content delivery systems. As such,improvements are needed to address the foregoing and other relatedshortcomings.

SUMMARY

In light of the foregoing background, and other shortcomings, thefollowing presents a simplified summary of the present disclosure inorder to provide a basic understanding of some aspects described herein.This summary is not an extensive overview, and is not intended toidentify key or critical elements or to delineate the scope of theclaims. The following summary merely presents various described aspectsin a simplified form as a prelude to the more detailed descriptionprovided below.

According to some embodiments, a system provides a method for resumingplayback of content which was interrupted by a high prioritycommunication, such as a communication initiated by an emergency alertsystem (EAS). The method may include receiving the high prioritycommunication while tuned to a first communication channel, which may bereceiving content transmitted by a content server, and transmitting asignal responsive to detecting the start of the high prioritycommunication message. In an aspect, the first signal may pause deliveryof the content and may index or otherwise note a location in the contentcorresponding to the start of the high priority communication message.The method may further include transmitting a second signal responsiveto detecting an end of the high priority communication message, whereinthe second signal triggers a resumption of delivery of the contentstarting at the indexed location.

The various aspects of the illustrative embodiments are substantiallyshown in and/or described in connection with at least one of thefollowing figures, as set forth more completely in the claims.

These and other advantages, aspects, and novel features of the presentdisclosure, as well as details of illustrated embodiments, thereof, willbe more fully understood from the following description and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Having thus described aspects of the disclosure in general terms,reference will now be made to the accompanying drawings, which are notnecessarily drawn to scale, and wherein:

FIG. 1 illustrates an example content access or delivery system in whichvarious embodiments may be implemented.

FIG. 2 is an example content delivery system in which variousembodiments may be implemented.

FIG. 3 is an example flow diagram of a method in accordance with variousembodiments.

FIG. 4 is an example flow diagram of a method in accordance with variousembodiments.

FIG. 5 is a diagram of an example device in which various embodimentsmay be implemented.

FIG. 6 illustrates general hardware and software elements of a computingdevice.

DETAILED DESCRIPTION

In the following description of the various embodiments, reference ismade to the accompanying drawings, which form a part hereof, and inwhich is shown by way of illustration various embodiments in whichaspects described herein may be practiced. It is to be understood thatother embodiments may be utilized and structural and functionalmodifications may be made without departing from the scope and spirit ofthe present disclosure.

After receiving a high priority communication message, such as anemergency alert system (EAS) message, a user device such as a set topbox typically reverts back to the same channel the viewer had beenwatching immediately before receiving the high priority communicationmessage. Thus, for programs provided by a typical cable channel, thedevice is able to revert back to the last consumer selected channelafter the high priority communication message has been completed. Thehigh priority communication message may comprise any type of emergencymessage or any type of emergency transmission signal, such as anemergency alert system (EAS) message or a weather, earthquake, ornational security related emergency signal/message.

When a viewer selects a video on demand (VOD) program or othernon-linear program, the viewer is assigned an available channel which isused to deliver the selected program. The selected program may beassigned to one of one or more usable channels by the network operatorbased on availability. When a high priority communication message isreceived by the device while a program is being played to a viewer, thedevice is forced to tune to the high priority communication message andthe streaming program is aborted. The firmware stored in a memory of theuser device is responsible for returning the user device to its previousstate. However, since the viewer was viewing a program over a channelthat was established or assigned by the network operator or othercontent provider, the device may be unable to revert back to itsprevious state. Described below are a method, a data processing systemor apparatus, and/or a computer program product for resuming playback ofa program which was interrupted by such a high priority communicationmessage.

FIG. 1 illustrates an example content delivery system 100 in whichvarious embodiments may be implemented. The system 100 may be ownedand/or operated by a cable operator, a satellite operator, Internetservice provider, telecommunications carrier, any multiple systemoperator (MSO), or any type of content provider. The system 100 maycomprise a content storage device 104, a high priority communicationmessage server or an emergency alert system (EAS) server 106, a primaryserver 108, a primary distribution network 112, one or more secondary orregional distribution networks 116, one or more secondary servers 120,one or more backup secondary servers 124, one or more access networks128, one or more local servers 132, and one or more backup local servers136.

The content storage device 104 may comprise a data storage repositoryfor storing content such as multimedia programs that may be requested bya viewer or subscriber of a service provided by the content provider.The content storage device 104 may comprise magnetic hard disk drives,optical discs such as CDs and DVDs, and/or other optical media oroptical drives, NAS (network attached storage) devices, and/or anycombination thereof. The programs stored in the content storage device104 may comprise any type of linear or non-linear program such as avideo on demand (VOD) program. The program may comprise video, audio, orany type of multimedia program such a movies, sporting events, or shows,for example. The content storage device 104 may comprise a cloud storagedevice that acts as a common storage facility for users who want torecord a program for future viewing. The content storage device 104 mayfunction as a virtual digital video recorder. The content storage device104 may be communicatively coupled to a primary server 108. The primaryserver 108 may comprise any computing device that incorporates the useof at least one processor and at least one memory for storing softwareor processor executable instructions. The primary server 108 maycomprise random access memory (RAM), non-volatile memory, and aninput/output (I/O) module for communicating with other components orelements of the system 100. When the content stored in the contentstorage device 104 comprises video on demand (VOD) programs, the primaryserver 108 may function as a video on demand (VOD) content server, forexample. When users or viewers share the use of the content storagedevice 104 to record their favorite programs, the content storage device104 may function as a shared digital video recorder (DVR) server.

The primary server 108 may provide controlled access to content storedin the content storage device 104. The primary server 108 may alsocontrol, allocate, and assign an available communications channel to auser device 140 in order to deliver or download a program, such as arequested VOD program. In one embodiment, the primary server 108 maycomprise one or more servers used for storing and accessing content fromthe content storage device 104, signaling between elements of thecontent delivery system, and/or controlling of delivery of the contentto the one or more end user devices 140. For example, the primary server108 may comprise both a content server and a control server. The contentserver may store and access content such as VOD programs and userrecorded programs from the content storage device 104. The controlserver may facilitate signaling between elements of the content deliverysystem, processing of a high priority communication message, anddelivery of content to one or more user devices. The content server maybe communicatively coupled to the control server. In another embodiment,the primary server 108 may comprise a content delivery module and acontrol module. The content delivery module may store and access contentfrom the content storage device 104, while the control module maycoordinate and control signaling between elements of the contentdelivery system 100 to facilitate delivery of content to the one or moreend user devices 140.

When executed by the at least one processor, the primary server 108 maybe operable for processing signals it receives from one or more userdevices 140. The signals it receives may be used to pause and to resumedelivery of content, such as a video on demand (VOD) program. A firstsignal transmitted by a user device 140 may indicate the start of a highpriority communication message that was received by the user device. Asillustrated in FIG. 1, the high priority communication message may betransmitted from the high priority communication message server or EASserver 106 to one or more user devices 140 by way of the primary server108. The start of the high priority communication message may bedetermined by identifying the header of the exemplary EAS message, forexample. Thus, a user device 140 may transmit the first signal inresponse to identifying the header of the EAS message. The first signalmay be used to pause delivery of the program.

The high priority communication message server or EAS server 106 maytransmit the high priority communication message to the primary server108 which may transmit or distribute the high priority communicationmessage to one or more user devices 140 by way of the primarydistribution network 112, secondary or regional distribution networks116, and/or access networks 128. A second signal received by the primaryserver 108 from a user device 140 may be used to resume delivery of thecontent or program. The second signal may signify that an end of a highpriority communication message has been encountered by a user device140. For example, the user device 140 may determine that an end of ahigh priority communication message has been reached when it detects adigitally encoded end of message marker in the EAS message. Afterreceiving the second signal, the primary server 108 may resume orrestore transmission of the program.

Alternatively, the primary server 108 may process the high prioritycommunication message to determine the pause and resume times of contentdelivered to the one or more user devices 140 when a high prioritycommunication message is received from the high priority communicationmessage server or EAS server 106. The primary server 108 may track andmonitor the high priority communication message transmitted to a userdevice 140 and may pause and resume delivery of content, such as a VODprogram, at the start of the high priority communication message and atthe end of the high priority communication message, respectively.

User device 140 may comprise a computing device that connects to, orincludes, a display for displaying video and/or generating audio.Exemplary user devices 140 may include a set top box (STB), a digitalvideo recorder (DVR), a personal video recorder (PVR), a smarttelevision, a computer (e.g., a laptop or desktop computer), a mediaplayer, a mobile phone, a tablet, a smart phone, or other deviceconfigured for receiving and demodulating a communications channel. Inan exemplary embodiment, the user devices 140 comprise set top boxesproviding video on demand (VOD) functionality to a viewer or subscriber.The user device 140 may cause a display to render the received program,or may itself display received content. The one or more user devices 140may receive content from secondary servers 120, backup secondary servers124, local servers 132, backup local servers 136, and/or the primaryserver 108. The use of a particular server may be based on whether itsassociated content storage device 104, 122, 126, 130, 138 contains anappropriate copy of the program a user requests.

The primary distribution network 112 may include distribution componentsand may include routers, servers, switches, and hubs for distributingcontent stored at the content storage device 104. The content stored atthe content storage device 104 may be accessed and distributed by way ofcontrol provided by the primary server 108. As shown in FIG. 1, theprimary distribution network 112 may be communicatively coupled to oneor more secondary or regional distribution networks 116. The secondaryor regional distribution networks 116 may be communicatively coupled toone or more access networks 128.

Secondary servers 120 and backup secondary servers 124 may be used toprovide content to users at a regional level. Each of the secondaryservers 120 and backup secondary servers 124 may be communicativelycoupled to their content storage devices 122, 126, respectively, forproviding content at a regional level using regional distributionpoints. The backup secondary servers 124 may be operated when thesecondary servers 120 are busy, preoccupied, or unavailable, forexample.

Secondary distribution networks 116 may include distribution componentsand may include routers, servers, switches, and hubs for distributingcontent stored at content storage devices 122, 126. The content storedat content storage devices 122, 126 may be accessed by way ofcommunication with the secondary and backup secondary servers 120, 124.

Local servers 132 and backup local servers 136 may be used to providecontent to users at a local level. Each of the local servers 132 andbackup local servers 136 may be communicatively coupled to their contentstorage devices 134, 138, respectively, for providing content at a locallevel using local distribution points. The backup local servers 136 maybe operated when the local servers 132 are busy, preoccupied, orunavailable, for example.

The primary server 108 may control the distribution of content to theone or more content storage devices 104, 122, 126, 134, 138 viatransmission through the primary distribution network 112, secondary orregional distribution networks 116, and access networks 128. The primaryserver 108 may distribute content to one or more content storage devices122, 126, 134, 138 by way of transmission using the secondary orregional distribution networks 116 and access networks 128. Particularcontent may be stored regionally or locally in the one or more contentstorage devices 122, 126, 134, 138 based on demand for a particularprogram, geographic factors, and demographics data, for example. If aparticular media item is requested frequently by a large number ofsubscribers at a particular geographic area, the primary server 108 maydistribute content to the content storage device closest to thegeographic area, by way of transmission through the primary distributionnetwork 112, secondary or regional distribution networks 116, and/oraccess networks 128, for example.

Access networks 128 may include distribution components and may includerouters, servers, switches, and hubs for distributing content stored atcontent storage devices 134, 138. The content stored at the contentstorage devices 134, 138 may be accessed by way of communication withthe local and backup local servers 132, 136. The access networks 128 arecommunicatively coupled to one or more user devices 140 as illustratedin FIG. 1.

FIG. 2 is a system block diagram of an example content delivery system200 in which various aspects of the disclosure may be implemented. Thecontent delivery system 200 may comprise content storage devices 204,222, 226, 234, 238, a high priority communication or EAS server 206,primary server 208, primary distribution network 212, secondary orregional distribution networks 216, secondary and backup secondaryservers 220, 224, access networks 228, local and backup local servers232, 236.

The content storage devices 204, 222, 226, 234, 238, high prioritycommunication message server or EAS server 206, primary server 208,primary distribution network 212, secondary or regional distributionnetwork 216, secondary and backup secondary servers 220, 224, accessnetworks 228 local and backup local servers 232, 236, and user devices240, illustrated in FIG. 2, may correspond to the content storagedevices 104, 122, 126, 134, 138, high priority communication messageserver or EAS server 106, primary server 108, primary distributionnetwork 112, secondary or regional distribution network 116, secondaryand backup secondary servers 120, 124, access networks 128, local andbackup local servers 132, 136, and user devices 140, previouslydescribed in connection with FIG. 1. System 200 comprises a number ofelements previously described in system 100.

In addition, the content delivery system 200 comprises a restore pointserver 214 that is communicatively coupled to the high prioritycommunication message server or EAS server 206, primary server 208, theprimary distribution network 212, and/or secondary or regionaldistribution networks 216. The restore point server 214 may monitor theoccurrence of a high priority communication message, such as anemergency alert system (EAS) message, at the access networks 228, thesecondary or regional distribution networks 216, and/or the primarydistribution network 212. In one embodiment, the restore point server214 may receive one or more reporting signals from one or more userdevices 240 when one or more high priority communication messages or EASmessages, transmitted from the high priority communication messageserver or EAS server 206, are received by the one or more user devices240. The high priority communication message server or EAS server 206may transmit the one or more high priority communication messages or EASmessages to the one or more user devices 240 by way of the primaryserver 208, the secondary or regional distribution networks 216, and theaccess networks 228. The one or more reporting signals may be receivedby the restore point server 214 by way of transmission via the accessnetworks 228, the secondary or regional distribution networks 216, orprimary distribution network 212.

When alerted by the one or more reporting signals, the restore pointserver 214 may signal the primary server 208, the secondary servers 220,backup secondary servers 224, the local servers 232, and/or the backuplocal servers 236, to pause delivery of one or more programs. A signalmay be transmitted to the appropriate server 208, 220, 224, 232, 236used to source the program to the user device 240. When the signal isreceived, one of the one or more of the primary server 208, thesecondary servers 220, backup secondary servers 224, the local servers232, and/or the backup local servers 236 may pause delivery of one ormore programs being transmitted to one or more user devices 240. The oneof the one or more of the primary server 208, the secondary servers 220,backup secondary servers 224, the local servers 232, and/or the backuplocal servers 236 may appropriately index the location at which thecontent or program is paused.

The duration of a high priority communication message may be determinedusing information contained in the header of the high prioritycommunication message. For example, the duration of each EAS message maybe determined using header information from each EAS message. Theduration may be used to display the time elapsed or remaining in the EASmessage. The time remaining in the EAS message may be provided as acountdown timer to the viewer, for example. The one or more of theprimary server 208, the secondary servers 220, backup secondary servers224, the local servers 232, and/or the backup local servers 236 mayresume playback of a program at an indexed location after the highpriority communication message or EAS message has ended. The end of anEAS message may be determined, for example, by detecting a digitallyencoded end of message marker. The restore point server 214 may be usedto reallocate the same communications channel previously used by theuser device 240 to download the program before the program was paused.Alternatively, the restore point server 214 may instruct the primaryserver 208 to control assignment of a new communications channel betweenthe user device 240 and a server in order to transmit the remainder ofthe program when playback is resumed.

In one embodiment, the restore point server 214 may monitor or track thedelivery of the high priority communication message to the one or moreuser devices 240. When a high priority communication message, such as anEAS message is delivered from the high priority communication messageserver or EAS server 206, the restore point server 214 may identify thestart of the high priority communication message server or EAS message,for example, by identifying a header of the message, to determine whento pause transmission of the program. In addition, the restore pointserver 214 may determine when to resume transmission of the pausedprogram by identifying the end of the high priority communicationmessage, such as an EAS message, for example, by identifying a digitallyencoded end of message marker in the EAS message. The restore pointserver may process the high priority communication message while thehigh priority communication message is delivered to the one or more userdevices 240. The restore point server may provide one or more signals tothe primary server to either pause program transmission or resumeprogram playback.

It is contemplated that the server 208, 220, 224, 232, 236 selected forproviding and controlling the delivery of a requested program may beassociated with the content storage device 204, 222, 226, 234, 238 thatcurrently stores the program requested by the viewer. Otherwise, if morethan one content storage device 204, 222, 226, 234, 238 contains a copyof the requested program, one of the secondary servers 220, backupsecondary servers 224, the local servers 232, and/or the backup localservers 236 closest or nearest to the user device 240 associated withthe request may be used to control delivery of the requested program,for example. The primary server 208 may be used to select theappropriate server 208, 220, 224, 232, 236 for delivering the remainderof the program.

FIG. 3 is an example operational flow diagram of a method for pausingand resuming delivery of content to a user when a high prioritycommunication) message is received by a user device. The operationalflow diagram of FIG. 3 may be implemented, for example, using aspects ofthe content delivery system described in connection with FIG. 1.

One of a plurality of communications channels may be assigned by thecontent delivery system to allow for downloading or receiving of thecontent by a user device. The primary server previously described inconnection with FIG. 1 may control the allocation and assignment of achannel of one or more available channels such as a VOD channel. Theprimary server may assign an available communications channel to theuser device at the time a viewer makes a content selection. The contentmay be served or transmitted by any one of the servers previouslydescribed in connection with the content delivery system shown in FIG.1.

The primary server may be in communication with the secondary or localservers by way of the primary distribution network, secondary orregional distribution networks, or access networks. The primary servermay assign a server to deliver the content to the user device based onnetwork conditions and/or the availability of the VOD program in the oneor more content storage devices distributed across the content deliverysystem.

At step 304, a high priority communication, such as an EAS message isreceived by a user device. The high priority communication message mayoriginate from one of the distribution networks described in connectionwith FIGS. 1 and 2. The viewer may have already watched a significantportion of a program when a high priority communication message isreceived by the user device.

Next, at step 308, the user device may detect the start of a highpriority communication message or header of the EAS message when thehigh priority communication message or EAS message is received. Thedevice may comprise firmware stored in a memory, which when executed bya processor of the device, allows detection of the header portion of theEAS message. If the header is located at the start of the EAS message,the time of detection of the header may provide a temporal point atwhich a program, that is currently being watched, may be paused. Inresponse to detection of the start of the EAS message, a pause signalmay be transmitted by the user device to a server such as the primaryserver, the secondary server, or the local server, as was previouslydescribed in connection with FIG. 1. The pause signal may be directed tothe server that was initially responsible for delivering or serving theprogram to the user's device. The header or start of the high prioritycommunication message may also contain the duration of the EAS message.Alternatively, the primary server may process the high prioritycommunication message or EAS message it receives to determine the pauseand resume times of content delivered to the user device.

Next, at step 312, the primary server pauses the transmission of theprogram in response to receiving the signal. The primary server may markor index the location of the program to determine the point within theprogram to resume playback of the program, e.g., the end of the firstportion of the program already viewed by the viewer. The marked orindexed program may be stored in its corresponding content storagedevice for future use. If the primary server was not responsible fordelivering the program, the primary server may control content deliveryusing any one of the secondary servers, backup secondary servers, thelocal servers, and/or the backup local servers responsible for deliveryof the program. The primary server may be used to initiate or facilitatepausing, marking, and indexing of the program at any one of thesecondary servers, backup secondary servers, the local servers, and/orthe backup local servers.

At step 316, while receiving the high priority communication message,such as an EAS message, the user device may process the EAS messageheader and detect the duration of the EAS message. The duration may beused to display the elapsed time or remaining time of the EAS message.Optionally, as a convenience to the viewer, the time that remains in thedelivery of the EAS message may be displayed as a countdown timer to theviewer, for example. The duration may also be used by the contentdelivery system to determine when to resume playback of the program. Theend of an EAS message may be determined by detecting a digitally encodedend of message marker.

Thereafter, at step 320, upon completion of the high prioritycommunication message, such as an EAS message, the user device maygenerate and transmit a resume signal to the server that was responsiblefor the delivery of the first portion of the program. The resume signalmay be transmitted to the primary server when the primary servercontrols delivery of the program. Otherwise, the resume signal may betransmitted to a server, such as a secondary or local server, to providedelivery of the second portion or remainder of the program. Next, atstep 324, the remainder of the program is delivered by the assignedserver starting from the indexed location. The remainder of the programmay be transmitted using the same communications channel before theprogram was paused. In order to insure delivery of the remainder of theprogram, the primary server may reserve the communications channel thatwas used for delivering the program before the program was paused. Analternate communications channel may be assigned by the primary serverto deliver the remainder of the program if the previously usedcommunications channel is unavailable. Selection of the alternatecommunications channel may be based on network conditions. The remainderof the program is received by the user device for viewing by the programrequester.

FIG. 4 is an example operational flow diagram of a method for pausingand resuming delivery of content to a subscriber when a high prioritycommunication message is received by a user device in accordance withvarious embodiments. The operational flow diagram of FIG. 4 may beimplemented, for example, using aspects of the content delivery systemdescribed in connection with FIG. 2.

One of a plurality of communications channels may be assigned by thecontent delivery system to allow for downloading or receiving of theprogram by a user device. The primary server previously described inconnection with FIG. 2 may control the allocation and assignment of achannel of one or more available channels. The primary server may assignan available communications channel to the user device at the time aviewer makes a program selection. The program may be served ortransmitted by any one of the servers previously described in connectionwith the content delivery system shown in FIG. 2.

At step 404, the restore point server, as previously described inconnection with FIG. 2, receives an indication that a high prioritycommunication message, such as an EAS message, has been transmitted byan EAS broadcasting station or received by a user device. The indicationmay comprise a signal transmitted by the EAS server previously describedin connection with FIGS. 1 and 2, an EAS broadcasting station, or asignal transmitted by one or more user devices in response to receivingan EAS message. The signal transmitted by the one or more user devicesmay comprise a pause signal as was previously described in connectionwith FIG. 3. Alternatively, the restore point server may receive andprocess the EAS message while the EAS message is delivered to the userdevice. The restore point server may transmit a pause signal to theprimary server after identifying the start of the EAS message.

Next, at step 408, the restore point server may determine, based on theinformation provided by the signal, the users in each of one or moregeographic regions that are affected by the high priority communicationmessage or the EAS message. The term “region” may be defined as anygrouping of user devices and may not limited to a geographic region. Thegeographic information may be determined from data located in the headerof an EAS message, for example. The geographic information may besupplied by the signal the restore point server receives from the EASbroadcasting station. Otherwise, the geographic information may besupplied by the signal transmitted by the user device. The restore pointserver may correlate the affected geographic region to a databasecontaining viewer addresses or other user information. The restore pointserver may monitor current requests of those viewers in the affectedgeographic region.

At step 412, the restore point server may initiate pausing of programsbeing watched in the affected geographic region. The restore pointserver may signal one or more servers that are currently providing oneor more programs to users located in the affected geographic region.Each of the one or more servers associated with one or more programsbeing viewed in the affected geographic region may pause transmissionand index the location of the one or more programs currently beingviewed by one or more users.

Next, at step 416, the restore point server and affected servers maydetermine the resume time based on the duration of the EAS message. Therestore point server may receive and process the high prioritycommunication message, such as the EAS message while the EAS message isdelivered to one or more user devices. The restore point server maytransmit a resume signal to the primary server after identifying the endof the EAS message. The duration of the EAS message may be obtained fromthe header of the EAS message. The header of an incoming EAS message maybe processed and the duration may be used to compute the time in whichthe EAS message ends. The processing and computing of the EAS messageend time may be performed at the restore point server and/or the one ormore user devices. The duration may be used to display the elapsed timeor remaining time of the EAS message. Optionally, as a convenience tothe viewer, the time that remains in the delivery of the EAS message maybe displayed as a countdown timer to the viewer, for example. Theduration may also be used by the content delivery system to determinewhen to resume playback of the one or more multimedia or programs. Theend of an EAS message may be determined by detecting a digitally encodedend of message marker.

Thereafter, at step 420, upon completion of the high prioritycommunication message, such as the EAS message, the restore point serveror other network computing devices may initiate resumption of playbackof the program. In one embodiment, upon completion of the high prioritycommunication message or EAS message, the one or more user devices maygenerate and transmit a resume signal to the server that was responsiblefor the delivery of the first portion of the program. After receivingthe resume signal, the restore point server or any other of one or morenetwork computing devices located in the primary distribution network,secondary or regional distribution networks, and/or access networks maysignal one or more servers that paused transmission of one or moreprograms to resume playback of the one or more programs at theirrespective indexed locations. Each of the one or more servers associatedwith a program being viewed in the affected geographic region may bedirected by the restore point server or any other of the one or morenetwork computing devices to continue or resume playback of the programfrom the indexed location. In another embodiment, the restore pointserver or any other of the one or more network computing devices maydetermine when to signal the one or more servers to resume transmissionat the indexed locations of one or more programs based on the durationof the high priority communication message or EAS message. In analternate embodiment, the restore point server or any other of the oneor more network computing devices may determine when to resumetransmission of the one or more programs based on the end of messagemarker of the received high priority communication message or EASmessage. The restore point server or any other of the one or morenetwork computing devices may signal one or more affected servers tocontinue playback of the one or more programs at their respectiveindexed locations.

Next, at step 424, the remaining portions of one or more programs aredelivered to the affected viewers starting from the indexed locations.The remainder of the program may be transmitted using the samecommunications channel before the program was paused. In order to insuredelivery of the remainder of the program, the primary server may reservethe communications channel that was used for delivering the programbefore the program was paused. An alternate communications channel maybe assigned by the primary server and/or restore point server to deliverthe remainder of the program if the previously used communicationschannel is unavailable. Selection of the alternate communicationschannel may be based on network conditions. The remainder of the programis received by the user device for viewing by the program requester.

FIG. 5 is a system block diagram of an example user device 504 in whichvarious embodiments may be implemented. In one embodiment, the userdevice 504 may comprise a digital video recorder (DVR) or personal videorecorder (PVR). The user device 504 may comprise a demodulator/decoder508 for demodulating and/or decoding a signal from a content provider(e.g., a cable, satellite, wireless, or Internet provider). Thedemodulator/decoder 508 may output the demodulated/decoded signal to anEAS message detector/processor 512 and a recording and indexingsubsystem 520.

The recording and indexing subsystem 520 may comprise a data storagedevice for storing recorded programs. The recording and indexingsubsystem 520 may be used to record content, such as one or moreprograms selected by viewer, into the data storage device. A remotecontrol 524 may be communicatively coupled to the user device 504 andmay be used to control the recording and indexing subsystem 520 and toselect a program using the program demultiplexer subsystem 516. Theprogram may be demultiplexed and transmitted to the recording andindexing subsystem 520 by the program demultiplexer subsystem 516. Therecording and indexing subsystem 520 may also be used to performplayback of previously recorded programs. The remote control 524 may beused to select and play a previously recorded program. During playback,the previously recorded program may be transmitted from the recordingand indexing subsystem 520 to an output adapter circuitry 528 where itis output to a display and speakers for viewing by a viewer.

The EAS message detector/processor 512 may process thedemodulated/decoded signal to determine if the demodulated/decodedsignal contains a high priority communication message or an EAS message.A high priority communication message, such as an EAS message may bedetected, for example, by detecting a header of the high prioritycommunication message or EAS message. When an EAS message is detected,the high priority communication message detector/processor or EASmessage detector/processor 512 may transmit a first control signal tothe recording and indexing subsystem 520 to pause playback of apreviously recorded program being viewed by a viewer. When the EASmessage is detected, the high priority communication messagedetector/processor or EAS message detector 512 may output the EASmessage to the output adapter circuitry 528 while the program is paused.

The high priority communication message detector/processor or EASmessage detector/processor 512 may detect the end of the EAS message,for example, by detecting a digitally encoded end of message marker. Thehigh priority communication message detector/processor or EAS messagedetector/processor 512 may, for example, determine the end of an EASmessage by obtaining the duration of the EAS message from a header ofthe EAS message. When the end of the high priority communication messageor EAS message is detected, the high priority communication messagedetector/processor or EAS message detector/processor 512 may transmit asecond control signal to the recording and indexing subsystem 520 toresume playback of the program that was previously paused. Thus, aftercompletion of the high priority communication message or EAS message,playback of the program resumes at the location where the program waspaused.

In the absence of a high priority communication message or an EASmessage, the EAS message detector/processor 512 outputs the demodulatedsignal to the program demultiplexer subsystem 516 where the demodulatedsignal is demultiplexed into a plurality of streams. Each of theplurality of streams may comprise any type of program such as a movie, ashow, or a sporting event, for example. A program may be recorded by therecording and indexing subsystem 520 or output to the output adaptercircuitry 528 for viewing by a viewer. Selection of the program,recording/playing of the program, and/or outputting of the program maybe controlled by using the remote control 524.

FIG. 6 illustrates general hardware elements that may be used toimplement each of the computing devices, such as the one or more serversand/or user devices, previously described in connection with FIGS. 1-5.The one or more servers may comprise the primary server, the secondaryservers, backup secondary servers, the local servers, and/or the backuplocal servers described in connection with FIGS. 1-5. Each of the one ormore servers and/or user devices may include one or more processors 601,which may execute instructions of a computer program to perform any ofthe features described herein. The instructions may be stored in anytype of computer-readable medium or memory, to configure the operationof the processors 601. For example, instructions may be stored in anytype of a memory (e.g., solid state flash, disk, etc.) such as read-onlymemory (ROM) 602, random access memory (RAM) 603, removable media 604,such as a Universal Serial Bus (USB) drive, compact disk (CD) or digitalversatile disk (DVD), floppy disk drive, or any other desired electronicstorage medium.

Instead of a general-purpose processor, any of various special-purposeprocessors such as field-programmable gate arrays (FPGAs) orapplication-specific integrated circuit (ASICs) may be used to implementthe functions described herein. Accordingly, the term “processor” shouldbe understood to refer to all of these and other possibleimplementations.

Instructions may also be stored in an attached (or internal) hard drive605 or any other type of memory. The computing device 600 may becommunicatively coupled to one or more output devices, such as a display606 (or an external television), and may include one or more outputdevice controllers 607, such as a video processor. The computing device600 may include an input/output (I/O) module 611 that is communicativelycoupled one or more user input devices 608, such as a remote control,mouse, keypad, keyboard, touch screen, scanner, microphone, opticalreader, infrared communication device, Bluetooth communication device,Wi-Fi communication device, near field communication (NFC) device,and/or other input devices through which a user may provide input, andmay also include and/or interface with one or more speakers forproviding audio output and a video display device for providing textual,audiovisual, and/or graphical output. The computing device 600 may alsoinclude one or more network interfaces, such as network input/outputcircuits 609 (such as a network card) to communicate with an externalnetwork 610. The network interface may be a wired interface, wirelessinterface, or a combination of the two. In some embodiments, the networkinterface may include a modem (e.g., a cable modem), and network 610 maycorrespond to any one of the one or more networks described inconnection with FIGS. 1-4, such as the primary distribution network,secondary or regional distribution networks, and/or access networks. Theone or more networks may comprise a content provider's wireline and/orwireless network, coaxial, fiber, or hybrid fiber/coaxial distributionsystem (e.g., a DOCSIS network), or any other desired network.

Although not required, one of ordinary skill in the art will appreciatethat the various aspects described herein may be embodied as a method, acomputer system, or as a computer-readable storage media for storingsoftware or a computer program comprising computer-executableinstructions that are capable of being executed by at least oneprocessor of a computer system. Aspects of the invention have beendescribed in terms of illustrative embodiments thereof. Numerous otherembodiments, modifications, and variations within the scope and spiritof the disclosed invention will occur to persons of ordinary skill inthe art from a review of this entire disclosure. For example, one ofordinary skill in the art will appreciate that the steps illustrated inthe illustrative figures may be performed in other than the recitedorder, and that one or more steps illustrated may be optional inaccordance with aspects of the disclosure. While some embodiments havebeen described with respect to specific examples, other embodimentsinclude numerous variations and permutations of the above describedsystems and techniques.

Although the subject matter has been described in language specific tostructural features and/or methodological acts, it is to be understoodthat the subject matter defined in the appended claims is notnecessarily limited to the specific features or acts described above.Rather, the specific features and acts described above are disclosed asillustrative forms of implementing the claims.

What is claimed is:
 1. A system comprising: a first computing deviceconfigured to receive content; and a second computing device comprising:one or more processors; and memory storing executable instructions that,when executed by the one or more processors, cause the second computingdevice to: receive, from the first computing device, a first signal thatindicates that the first computing device has started to receive a highpriority communication message; determine, from the plurality ofservers, a first server that is sending the content to the firstcomputing device; send, to the first server, a second signal to causethe first server to, for the first computing device, pause sending ofthe content to the first computing device at a location in the content;determine, based on an indication that the first computing device hascompleted processing of the high priority communication message, toresume sending of the content to the first computing device; and basedon determining to resume sending of the content to the first computingdevice, send, to a second server of the plurality of servers, a thirdsignal to cause the second server to, for the first computing device,resume sending of the content to the first computing device from thelocation in the content.
 2. The system of claim 1, further comprisingthe plurality of servers; wherein the first server is configured tosend, to the first computing device via a communication channel, a firstportion of the content; and wherein the second server is configured tosend, to the first computing device via the communication channel, asecond portion of the content.
 3. The system of claim 1, wherein thehigh priority communication message comprises an emergency alert system(EAS) message.
 4. The system of claim 4, wherein a header of the EASmessage comprises an indication of a duration; wherein the executableinstructions, when executed by the one or more processors, cause thesecond computing device to: process the EAS message to determine theduration; and determine, based on the duration of the EAS message, theindication that the first computing device has completed processing ofthe high priority communication message.
 5. The system of claim 1,further comprising the first server; wherein the first server isconfigured to retrieve, from a shared digital video recorder that storesshared content for a plurality of users, the content, wherein one of theplurality of users is associated with the first computing device.
 6. Thesystem of claim 1, wherein the executable instructions, when executed bythe one or more processors, cause the second computing device to: send,to a third server of the plurality of servers, a fourth signal to causethe third server to, for another computing device, pause sending of thecontent to the other computing device.
 7. The system of claim 1, whereinthe first computing device comprises a set top box; wherein theplurality of servers is associated with a content provider; wherein thesystem further comprises the plurality of servers; wherein the firstserver is configured to send the content to the first computing devicevia a distribution network of the content provider; and wherein thesecond server is configured to send the content to the first computingdevice via an access network of the content provider.
 8. One or morenon-transitory computer readable media storing executable instructionsthat, when executed, cause an apparatus to: based on receiving, from auser device based on the user device having started to receive a highpriority communication message, a first signal that indicates thatcontent being sent to the user device is to be paused, determine, from aplurality of servers, a first server that is sending the content to theuser device; determine a geographic region affected by the high prioritycommunication message; send, to the plurality of servers, a secondsignal to cause the plurality of servers to, for a plurality of userdevices within the geographic region, pause sending of the content tothe plurality of user devices at a location in the content; determine,based on an indication that the plurality of user devices within thegeographic region have completed processing of the high prioritycommunication message, to resume sending of the content to the pluralityof user devices within the geographic region; and based on determiningto resume sending of the content to the plurality of user devices withinthe geographic region, send, to the plurality of servers, a third signalto cause the plurality of servers to, for the plurality of user deviceswithin the geographic region, resume sending of the content to theplurality of user devices from the location in the content.
 9. The oneor more non-transitory computer readable media of claim 8, wherein thefirst server, prior to pausing to send the content, is sending a firstportion of the content to the user device via a communication channel;and wherein a second server of the plurality of servers, after resumingto send the content, is sending a second portion of the content to theuser device via the communication channel.
 10. The one or morenon-transitory computer readable media of claim 8, wherein the firstserver, prior to pausing to send the content, is sending a first portionof the content to the user device via a first communication channel; andwherein a second server of the plurality of servers, after resuming tosend the content, is sending a second portion of the content to the userdevice via a second communication channel different from the firstcommunication channel.
 11. The one or more non-transitory computerreadable media of claim 8, wherein the high priority communicationmessage comprises an emergency alert system (EAS) message, and whereinthe executable instructions, when executed, cause the apparatus to:process the EAS message to determine a duration of the EAS message; anddetermine, based on the duration of the EAS message, the indication thatthe user device has completed processing of the high prioritycommunication message.
 12. The one or more non-transitory computerreadable media of claim 11, wherein a header of the EAS messagecomprises an indication of the duration of the EAS message.
 13. The oneor more non-transitory computer readable media of claim 8, wherein thecontent is stored in a shared digital video recorder that stores sharedcontent for a plurality of users, wherein one of the plurality of usersis associated with the user device.
 14. The one or more non-transitorycomputer readable media of claim 8, wherein the second signal causes thefirst server to send, to the second server, an indication of thelocation in the content.
 15. One or more non-transitory computerreadable media storing executable instructions that, when executed,cause an apparatus to: based on receiving, from a user device based onthe user device having started to receive a high priority communicationmessage, a first signal that indicates that content being sent to theuser device is to be paused, determine, from a plurality of servers, afirst server that is sending the content to the user device; send, tothe first server, a second signal to cause the first server to, for theuser device, pause sending of the content at a location in the content;determine, based on an indication that the user device has completedprocessing of the high priority communication message, to resume sendingof the content to the user device; and based on determining to resumesending of the content to the user device, send, to a second server ofthe plurality of servers, a third signal to cause the second server to,for the user device and based on the location in the content, resumesending of the content to the user device.
 16. The one or morenon-transitory computer readable media of claim 15, wherein the firstserver, prior to pausing to send the content, is sending a first portionof the content to the user device via a communication channel; andwherein the second server, after resuming to send the content, issending a second portion of the content to the user device via thecommunication channel.
 17. The one or more non-transitory computerreadable media of claim 15, wherein the first server, prior to pausingto send the content, is sending a first portion of the content to theuser device via a first communication channel, and wherein the secondserver, after resuming to send the content, is sending a second portionof the content to the user device via a second communication channeldifferent from the first communication channel.
 18. The one or morenon-transitory computer readable media of claim 15, wherein the highpriority communication message comprises an emergency alert system (EAS)message, and wherein the executable instructions, when executed, causethe apparatus to: process the EAS message to determine a duration of theEAS message; and determine, based on the duration of the EAS message,the indication that the user device has completed processing of the highpriority communication message.
 19. The one or more non-transitorycomputer readable media of claim 15, wherein the second signal causesthe first server to send, to the second server, an indication of thelocation in the content.
 20. The one or more non-transitory computerreadable media of claim 15, wherein the executable instructions, whenexecuted, cause the apparatus to: determine a geographic region affectedby the high priority communication message; cause, based on sending ofthe second signal, the plurality of servers to, for a plurality of userdevices within the geographic region, pause sending of the content tothe plurality of user devices; and cause, based on sending of the thirdsignal, the plurality of servers to, for the plurality of user devices,resume sending of the content to the plurality of user devices.